-
null
The documentation set for this product strives to use bias-free language. For the purposes of this documentation set, bias-free is defined as language that does not imply discrimination based on age, disability, gender, racial identity, ethnic identity, sexual orientation, socioeconomic status, and intersectionality. Exceptions may be present in the documentation due to language that is hardcoded in the user interfaces of the product software, language used based on RFP documentation, or language that is used by a referenced third-party product. Learn more about how Cisco is using Inclusive Language.
This chapter describes how to initially configure and log into the controller. It contains these sections:
The configuration wizard enables you to configure basic settings on the controller. You can run the wizard after you receive the controller from the factory or after the controller has been reset to factory defaults. The configuration wizard is available in GUI or CLI format.
This section contains the following topics:
Before you can configure the controller for basic operations, you need to connect it to a PC that uses a VT-100 terminal emulation program (such as HyperTerminal, ProComm, Minicom, or Tip).
Note On Cisco 5500 Series Controllers, you can use either the RJ-45 console port or the USB console port. If you use the USB console port, plug the 5-pin mini Type B connector into the controller’s USB console port and the other end of the cable into the PC’s USB Type A port. The first time that you connect a Windows PC to the USB console port, you are prompted to install the USB console driver. Follow the installation prompts to install the driver. The USB console driver maps to a COM port on your PC; you then need to map the terminal emulator application to the COM port.
Step 1 Connect one end of a null-modem serial cable to the controller’s console port and the other end to your PC’s serial port.
Step 2 Start the PC’s VT-100 terminal emulation program.
Step 3 Configure the terminal emulation program for these parameters:
Step 4 Plug the AC power cord into the controller and a grounded 100 to 240 VAC, 50/60-Hz electrical outlet.Turn on the power supply. The bootup script displays operating system software initialization (code download and power-on self test verification) and basic configuration.
If the controller passes the power-on self test, the bootup script runs the configuration wizard, which prompts you for basic configuration input.
Step 1 Connect your PC to the service port and configure it to use the same subnet as the controller (for example, 209.165.200.225).
Step 2 Start Internet Explorer 6.0 SP1 (or later) or Firefox 2.0.0.11 (or later) on your PC and browse to http://209.165.200.225. The configuration wizard appears.
Figure 3-1 Configuration Wizard — System Information Screen
Step 3 In the System Name text box, enter the name that you want to assign to this controller. You can enter up to 31 ASCII characters.
Step 4 In the User Name text box, enter the administrative username to be assigned to this controller. You can enter up to 24 ASCII characters. The default username is admin .
Step 5 In the Password and Confirm Password text boxes, enter the administrative password to be assigned to this controller. You can enter up to 24 ASCII characters. The default password is admin .
Starting in release 7.0.116.0, the following password policy has been implemented:
Step 6 Click Next . The SNMP Summary screen appears.
Figure 3-2 Configuration Wizard — SNMP Summary Screen
Step 7 If you want to enable Simple Network Management Protocol (SNMP) v1 mode for this controller, choose Enable from the SNMP v1 Mode drop-down list. Otherwise, leave this parameter set to Disable .
Note SNMP manages nodes (servers, workstations, routers, switches, and so on) on an IP network. Currently, there are three versions of SNMP: SNMPv1, SNMPv2c, and SNMPv3.
Step 8 If you want to enable SNMPv2c mode for this controller, leave this parameter set to Enable . Otherwise, choose Disable from the SNVP v2c Mode drop-down list.
Step 9 If you want to enable SNMPv3 mode for this controller, leave this parameter set to Enable . Otherwise, choose Disable from the SNVP v3 Mode drop-down list.
Step 11 When the following message appears, click OK :
The Service Interface Configuration screen appears.
Figure 3-3 Configuration Wizard — Service Interface Configuration Screen
Step 12 If you want the controller’s service-port interface to obtain an IP address from a DHCP server, select the DHCP Protocol Enabled check box. If you do not want to use the service port or if you want to assign a static IP address to the service port, leave the check box unselected.
Note The service-port interface controls communications through the service port. Its IP address must be on a different subnet from the management interface. This configuration enables you to manage the controller directly or through a dedicated management network to ensure service access during network downtime.
Step 13 Perform one of the following:
Step 14 Click Next . The LAG Configuration screen appears.
Figure 3-4 Configuration Wizard — LAG Configuration Screen
Step 15 To enable link aggregation (LAG), choose Enabled from the Link Aggregation (LAG) Mode drop-down list. To disable LAG, leave this text box set to Disabled .
Step 16 Click Next . The Management Interface Configuration screen appears.
Figure 3-5 Configuration Wizard — Management Interface Configuration Screen
Note The management interface is the default interface for in-band management of the controller and connectivity to enterprise services such as AAA servers.
Step 17 In the VLAN Identifier text box, enter the VLAN identifier of the management interface (either a valid VLAN identifier or 0 for an untagged VLAN). The VLAN identifier should be set to match the switch interface configuration.
Step 18 In the IP Address text box, enter the IP address of the management interface.
Step 19 In the Netmask text box, enter the IP address of the management interface netmask.
Step 20 In the Gateway text box, enter the IP address of the default gateway.
Step 21 In the Port Number text box, enter the number of the port assigned to the management interface. Each interface is mapped to at least one primary port.
Step 22 In the Backup Port text box, enter the number of the backup port assigned to the management interface. If the primary port for the management interface fails, the interface automatically moves to the backup port.
Step 23 In the Primary DHCP Server text box, enter the IP address of the default DHCP server that will supply IP addresses to clients, the controller’s management interface, and optionally, the service port interface.
Step 24 In the Secondary DHCP Server text box, enter the IP address of an optional secondary DHCP server that will supply IP addresses to clients, the controller’s management interface, and optionally, the service port interface.
Step 25 Click Next . The AP-Manager Interface Configuration screen appears.
Note This screen does not appear for Cisco 5500 Series Controllers because you are not required to configure an AP-manager interface. The management interface acts like an AP-manager interface by default.
Step 26 In the IP Address text box, enter the IP address of the AP-manager interface.
Step 27 Click Next . The Miscellaneous Configuration screen appears.
Figure 3-6 Configuration Wizard — Miscellaneous Configuration Screen
Step 28 In the RF Mobility Domain Name text box, enter the name of the mobility group/RF group to which you want the controller to belong.
Note Although the name that you enter here is assigned to both the mobility group and the RF group, these groups are not identical. Both groups define clusters of controllers, but they have different purposes. All of the controllers in an RF group are usually also in the same mobility group and vice versa. However, a mobility group facilitates scalable, system-wide mobility and controller redundancy while an RF group facilitates scalable, system-wide dynamic RF management.
Step 29 The Configured Country Code(s) text box shows the code for the country in which the controller will be used. If you want to change the country of operation, select the check box for the desired country.
Note You can choose more than one country code if you want to manage access points in multiple countries from a single controller. After the configuration wizard runs, you need to assign each access point joined to the controller to a specific country. See the “Configuring Country Codes” section for instructions.
Step 31 When the following message appears, click OK :
The Virtual Interface Configuration screen appears.
Figure 3-7 Configuration Wizard — Virtual Interface Configuration Screen
Step 32 In the IP Address text box, enter the IP address of the controller’s virtual interface. You should enter a fictitious, unassigned IP address.
Note The virtual interface is used to support mobility management, DHCP relay, and embedded Layer 3 security such as guest web authentication and VPN termination. All controllers within a mobility group must be configured with the same virtual interface IP address.
Step 33 In the DNS Host Name text box, enter the name of the Domain Name System (DNS) gateway used to verify the source of certificates when Layer 3 web authorization is enabled.
Note To ensure connectivity and web authentication, the DNS server should always point to the virtual interface. If a DNS host name is configured for the virtual interface, then the same DNS host name must be configured on the DNS servers used by the client.
Step 34 Click Next . The WLAN Configuration screen appears.
Figure 3-8 Configuration Wizard — WLAN Configuration Screen
Step 35 In the Profile Name text box, enter up to 32 alphanumeric characters for the profile name to be assigned to this WLAN.
Step 36 In the WLAN SSID text box, enter up to 32 alphanumeric characters for the network name, or service set identifier (SSID). The SSID enables basic functionality of the controller and allows access points that have joined the controller to enable their radios.
Step 38 When the following message appears, click OK :
The RADIUS Server Configuration screen appears.
Figure 3-9 Configuration Wizard — RADIUS Server Configuration Screen
Step 39 In the Server IP Address text box, enter the IP address of the RADIUS server.
Step 40 From the Shared Secret Format drop-down list, choose ASCII or Hex to specify the format of the shared secret.
Note Due to security reasons, the RADIUS shared secret key reverts to ASCII mode even if you have selected HEX as the shared secret format from the Shared Secret Format drop-down list.
Step 41 In the Shared Secret and Confirm Shared Secret text boxes, enter the secret key used by the RADIUS server.
Step 42 In the Port Number text box, enter the communication port of the RADIUS server. The default value is 1812.
Step 43 To enable the RADIUS server, choose Enabled from the Server Status drop-down list. To disable the RADIUS server, leave this text box set to Disabled .
Step 44 Click Apply . The 802.11 Configuration screen appears.
Figure 3-10 Configuration Wizard — 802.11 Configuration Screen
Step 45 To enable the 802.11a, 802.11b, and 802.11g lightweight access point networks, leave the 802.11a Network Status , 802.11b Network Status , and 802.11g Network Status check boxes selected. To disable support for any of these networks, unselect the check boxes.
Step 46 To enable the controller’s radio resource management (RRM) auto-RF feature, leave the Auto RF check box selected. To disable support for the auto-RF feature, unselect this check box.
Note The auto-RF feature enables the controller to automatically form an RF group with other controllers. The group dynamically elects a leader to optimize RRM parameter settings, such as channel and transmit power assignment, for the group.
Step 47 Click Next . The Set Time screen appears.
Figure 3-11 Configuration Wizard — Set Time Screen
Step 48 To manually configure the system time on your controller, enter the current date in Month/DD/YYYY format and the current time in HH:MM:SS format.
Step 49 To manually set the time zone so that Daylight Saving Time (DST) is not set automatically, enter the local hour difference from Greenwich Mean Time (GMT) in the Delta Hours text box and the local minute difference from GMT in the Delta Mins text box.
Note When manually setting the time zone, enter the time difference of the local current time zone with respect to GMT (+/–). For example, Pacific time in the United States is 8 hours behind GMT. Therefore, it is entered as –8.
Step 50 Click Next . The Configuration Wizard Completed screen appears.
Figure 3-12 Configuration Wizard — Configuration Wizard Completed Screen
Step 51 Click Save and Reboot to save your configuration and reboot the controller.
Step 52 When the following message appears, click OK :
Step 53 The controller saves your configuration, reboots, and prompts you to log in. Follow the instructions in the “Using the Controller Web GUI” section to log into the controller.
This section contains the following topics:
Step 1 When prompted to terminate the AutoInstall process, enter yes . If you do not enter yes , the AutoInstall process begins after 30 seconds.
Note The AutoInstall feature downloads a configuration file from a TFTP server and then loads the configuration onto the controller automatically. See the “Using the AutoInstall Feature for Controllers Without a Configuration” section for more information.
Step 2 Enter the system name, which is the name that you want to assign to the controller. You can enter up to 31 ASCII characters.
Step 3 Enter the administrative username and password to be assigned to this controller. You can enter up to 24 ASCII characters for each.
Starting in release 7.0.116.0, the following password policy has been implemented:
Step 4 If you want the controller’s service-port interface to obtain an IP address from a DHCP server, enter DHCP . If you do not want to use the service port or if you want to assign a static IP address to the service port, enter none.
Note The service-port interface controls communications through the service port. Its IP address must be on a different subnet from the management interface. This configuration enables you to manage the controller directly or through a dedicated management network to ensure service access during network downtime.
Step 5 If you entered none in If you want the controller’s service-port interface to obtain an IP address from a DHCP server, enter DHCP . If you do not want to use the service port or if you want to assign a static IP address to the service port, enter none., enter the IP address and netmask for the service-port interface on the next two lines.
Step 6 Enable or disable link aggregation (LAG) by choosing yes or NO.
Step 7 Enter the IP address of the management interface.
Note The management interface is the default interface for in-band management of the controller and connectivity to enterprise services such as AAA servers.
Step 8 Enter the IP address of the management interface netmask.
Step 9 Enter the IP address of the default router.
Step 10 Enter the VLAN identifier of the management interface (either a valid VLAN identifier or 0 for an untagged VLAN). The VLAN identifier should be set to match the switch interface configuration.
Step 11 Enter the IP address of the default DHCP server that will supply IP addresses to clients, the controller’s management interface, and optionally, the service port interface. Enter the IP address of the AP-manager interface.
Note This prompt does not appear for Cisco 5500 Series Controllers because you are not required to configure an AP-manager interface. The management interface acts like an AP-manager interface by default.
Step 12 Enter the IP address of the controller’s virtual interface. You should enter a fictitious unassigned IP address.
Note The virtual interface is used to support mobility management, DHCP relay, and embedded Layer 3 security such as guest web authentication and VPN termination. All controllers within a mobility group must be configured with the same virtual interface IP address.
Step 13 If desired, enter the name of the mobility group/RF group to which you want the controller to belong.
Note Although the name that you enter here is assigned to both the mobility group and the RF group, these groups are not identical. Both groups define clusters of controllers, but they have different purposes. All of the controllers in an RF group are usually also in the same mobility group and vice versa. However, a mobility group facilitates scalable, system-wide mobility and controller redundancy while an RF group facilitates scalable, system-wide dynamic RF management.
Step 14 Enter the network name or service set identifier (SSID). The SSID enables basic functionality of the controller and allows access points that have joined the controller to enable their radios.
Step 15 Enter YES to allow clients to assign their own IP address or no to require clients to request an IP address from a DHCP server.
Step 16 To configure a RADIUS server now, enter YES and then enter the IP address, communication port, and secret key of the RADIUS server. Otherwise, enter no. If you enter no, the following message appears: “Warning! The default WLAN security policy requires a RADIUS server. Please see the documentation for more details.”
Step 17 Enter the code for the country in which the controller will be used.
Note Enter help to view the list of available country codes.
Note You can enter more than one country code if you want to manage access points in multiple countries from a single controller. To do so, separate the country codes with a comma (for example, US,CA,MX). After the configuration wizard runs, you need to assign each access point joined to the controller to a specific country.
Step 18 Enable or disable the 802.11b, 802.11a, and 802.11g lightweight access point networks by entering YES or no.
Step 19 Enable or disable the controller’s radio resource management (RRM) auto-RF feature by entering YES or no.
Note The auto-RF feature enables the controller to automatically form an RF group with other controllers. The group dynamically elects a leader to optimize RRM parameter settings, such as channel and transmit power assignment, for the group.
Step 20 If you want the controller to receive its time setting from an external Network Time Protocol (NTP) server when it powers up, enter YES to configure an NTP server. Otherwise, enter no .
Note The controller network module installed in a Cisco Integrated Services Router does not have a battery and cannot save a time setting. Therefore, it must receive a time setting from an external NTP server when it powers up.
Step 21 If you entered no in If you want the controller to receive its time setting from an external Network Time Protocol (NTP) server when it powers up, enter YES to configure an NTP server. Otherwise, enter no . and want to manually configure the system time on your controller now, enter YES . If you do not want to configure the system time now, enter no .
Step 22 If you entered YES in If you entered no in Step 20 and want to manually configure the system time on your controller now, enter YES . If you do not want to configure the system time now, enter no ., enter the current date in MM/DD/YY format and the current time in HH:MM:SS format.
Step 23 When prompted to verify that the configuration is correct, enter yes or NO .
The controller saves your configuration, reboots, and prompts you to log in. Follow the instructions in the “Using the Controller CLI” section to log into the controller.
A web browser, or graphical user interface (GUI), is built into each controller. It allows up to five users to simultaneously browse into the controller HTTP or HTTPS (HTTP + SSL) management pages to configure parameters and monitor the operational status for the controller and its associated access points.
This section contains the following topics:
Follow these guidelines when using the controller GUI:
Step 1 Enter the controller IP address in your browser’s address line. For a secure connection, enter https: //ip-address . For a less secure connection, enter http: //ip-address .
Note See the “Enabling Web and Secure Web Modes” section for instructions on setting up HTTPS.
Step 2 When prompted, enter a valid username and password and click OK . The controller Summary page appears.
Note The administrative username and password that you created in the configuration wizard are case sensitive. The default username is admin, and the default password is admin.
Step 1 Click Logout in the top right corner of the page.
Step 2 Click Close to complete the logoff process and prevent unauthorized users from accessing the controller GUI.
Step 3 When prompted to confirm your decision, click Yes .
This section provides instructions for enabling the distribution system port as a web port (using HTTP) or as a secure web port (using HTTPS). You can protect communication with the GUI by enabling HTTPS. HTTPS protects HTTP browser sessions by using the Secure Socket Layer (SSL) protocol. When you enable HTTPS, the controller generates its own local web administration SSL certificate and automatically applies it to the GUI. You also have the option of downloading an externally generated certificate.This section contains the following topics:
Step 1 Choose Management > HTTP to open the HTTP Configuration page.
Figure 3-13 HTTP Configuration Page
Step 2 To enable web mode, which allows users to access the controller GUI using “http:// ip-address ,” choose Enabled from the HTTP Access drop-down list. Otherwise, choose Disabled . The default value is Disabled. Web mode is not a secure connection.
Step 3 To enable secure web mode, which allows users to access the controller GUI using “https:// ip-address ,” choose Enabled from the HTTPS Access drop-down list. Otherwise, choose Disabled . The default value is Enabled. Secure web mode is a secure connection.
Step 4 In the Web Session Timeout text box, enter the amount of time (in minutes) before the web session times out due to inactivity. You can enter a value between 30 and 160 minutes (inclusive), and the default value is 30 minutes.
Step 5 Click Apply to commit your changes.
Step 6 If you enabled secure web mode in Step 3, the controller generates a local web administration SSL certificate and automatically applies it to the GUI. The details of the current certificate appear in the middle of the HTTP Configuration page.
Note If you want to download your own SSL certificate to the controller, follow the instructions in the “Loading an Externally Generated SSL Certificate” section.
Note If desired, you can delete the current certificate by clicking Delete Certificate and have the controller generate a new certificate by clicking Regenerate Certificate.
Step 7 Click Save Configuration to save your changes.
Step 1 To enable or disable web mode, enter this command:
config network webmode { enable | disable }
This command allows users to access the controller GUI using “http:// ip-address.” The default value is disabled. Web mode is not a secure connection.
Step 2 To enable or disable secure web mode, enter this command:
config network secureweb { enable | disable }
This command allows users to access the controller GUI using “https:// ip-address .” The default value is enabled. Secure web mode is a secure connection.
Step 3 To enable or disable secure web mode with increased security, enter this command:
config network secureweb cipher-option high { enable | disable }
This command allows users to access the controller GUI using “https:// ip-address ” but only from browsers that support 128-bit (or larger) ciphers. The default value is disabled.
Step 4 To enable or disable SSLv2 for web administration, enter this command:
config network secureweb cipher-option sslv2 { enable | disable }
If you disable SSLv2, users cannot connect using a browser configured with SSLv2 only. They must use a browser that is configured to use a more secure protocol such as SSLv3 or later. The default value is enabled.
Step 5 To verify that the controller has generated a certificate, enter this command:
Information similar to the following appears:
Note If you want to download your own SSL certificate to the controller, follow the instructions in the “Loading an Externally Generated SSL Certificate” section.
Step 6 (Optional) If you need to generate a new certificate, enter this command:
config certificate generate webadmin
After a few seconds, the controller verifies that the certificate has been generated.
Step 7 To save the SSL certificate, key, and secure web password to nonvolatile RAM (NVRAM) so that your changes are retained across reboots, enter this command:
Step 8 To reboot the controller, enter this command:
You can use a TFTP server to download an externally generated SSL certificate to the controller.
This section contains the following topics:
Step 1 On the HTTP Configuration page, select the Download SSL Certificate check box.
Figure 3-14 HTTP Configuration Page
Step 2 In the Server IP Address text box, enter the IP address of the TFTP server.
Step 3 In the Maximum Retries text box, enter the maximum number of times that the TFTP server attempts to download the certificate.
Step 4 In the Timeout text box, enter the amount of time (in seconds) that the TFTP server attempts to download the certificate.
Step 5 In the Certificate File Path text box, enter the directory path of the certificate.
Step 6 In the Certificate File Name text box, enter the name of the certificate (webadmincert_name.pem).
Step 7 (Optional) In the Certificate Password text box, enter a password to encrypt the certificate.
Step 8 Click Apply to commit your changes.
Step 9 Click Save Configuration to save your changes.
Step 10 To reboot the controller for your changes to take effect, choose Commands > Reboot > Reboot > Save and Reboot .
Step 1 Use a password to encrypt the HTTPS certificate in a .PEM-encoded file. The PEM-encoded file is called a web administration certificate file (webadmincert_name.pem).
Step 2 Move the webadmincert_name .pem file to the default directory on your TFTP server.
Step 3 To view the current download settings, enter this command and answer n to the prompt:
Information similar to the following appears:
Step 4 Use these commands to change the download settings:
transfer download datatype webauthcert
transfer download serverip TFTP_server IP_addres s
transfer download path absolute_TFTP_server_path_to_the_update_file
transfer download filename webadmincert_name.pem
Step 5 To set the password for the .PEM file so that the operating system can decrypt the web administration SSL key and certificate, enter this command:
transfer download certpassword private_key_password
Step 6 To confirm the current download settings and start the certificate and key download, enter this command and answer y to the prompt:
Information similar to the following appears:
Step 7 To save the SSL certificate, key, and secure web password to NVRAM so that your changes are retained across reboots, enter this command:
Step 8 To reboot the controller, enter this command:
This section contains the following topics:
A Cisco UWN solution command-line interface (CLI) is built into each controller. The CLI enables you to use a VT-100 terminal emulation program to locally or remotely configure, monitor, and control individual controllers and its associated lightweight access points. The CLI is a simple text-based, tree-structured interface that allows up to five users with Telnet-capable terminal emulation programs to access the controller.
You access the controller CLI using one of two methods:
Before you log on to the CLI, configure your connectivity and environment variables based on the type of connection you use.
You need these items to connect to the serial port:
To log into the controller CLI through the serial port, follow these steps:
Step 1 Connect one end of a null-modem serial cable to the controller’s console port and the other end to your PC’s serial port.
Step 2 Start the PC’s VT-100 terminal emulation program.Configure the terminal emulation program for these parameters:
Note The controller serial port is set for a 9600 baud rate and a short timeout. If you would like to change either of these values, enter config serial baudrate baudrate and config serial timeout timeout to make your changes. If you enter config serial timeout 0, serial sessions never time out.
Step 3 When prompted, enter a valid username and password to log into the controller. The administrative username and password that you created in the configuration wizard are case sensitive.
Note The default username is admin, and the default password is admin.
The CLI displays the root level system prompt:
Note The system prompt can be any alphanumeric string up to 31 characters. You can change it by entering the config prompt command.
You need these items to connect to a controller remotely:
Note By default, controllers block Telnet sessions. You must use a local connection to the serial port to enable Telnet sessions.
To log into the controller CLI through a remote Ethernet connection, follow these steps:
Step 1 Verify that your VT-100 terminal emulation program or DOS shell interface is configured with these parameters:
Step 2 Use the controller IP address to Telnet to the CLI.
Step 3 When prompted, enter a valid username and password to log into the controller. The administrative username and password that you created in the configuration wizard are case sensitive.
Note The default username is admin, and the default password is admin.
The CLI displays the root level system prompt:
Note The system prompt can be any alphanumeric string up to 31 characters. You can change it by entering the config prompt command.
When you finish using the CLI, navigate to the root level and enter logout. The system prompts you to save any changes you made to the volatile RAM.
Note The CLI automatically logs you out without saving any changes after 5 minutes of inactivity. You can set the automatic logout from 0 (never log out) to 160 minutes using the config serial timeout command.
The CLI is organized around five levels:
When you log into the CLI, you are at the root level. From the root level, you can enter any full command without first navigating to the correct command level. Table 3-1 lists commands you use to navigate the CLI and to perform common tasks.
This section contains the following topics:
When you boot up a controller that does not have a configuration, the AutoInstall feature can download a configuration file from a TFTP server and then load the configuration onto the controller automatically.
If you create a configuration file on a controller that is already on the network (or through a WCS filter), place that configuration file on a TFTP server, and configure a DHCP server so that a new controller can get an IP address and TFTP server information, the AutoInstall feature can obtain the configuration file for the new controller automatically.
When the controller boots, the AutoInstall process starts. The controller does not take any action until AutoInstall is notified that the configuration wizard has started. If the wizard has not started, the controller has a valid configuration.
If AutoInstall is notified that the configuration wizard has started (which means that the controller does not have a configuration), AutoInstall waits for an additional 30 seconds. This time period gives you an opportunity to respond to the first prompt from the configuration wizard:
When the 30-second cancel timeout expires, AutoInstall starts the DHCP client. You can cancel the AutoInstall task even after this 30-second timeout if you enter Yes at the prompt. However, AutoInstall cannot be canceled if the TFTP task has locked the flash and is in the process of downloading and installing a valid configuration file.
AutoInstall uses the following interfaces:
AutoInstall attempts to obtain an IP address from the DHCP server until the DHCP process is successful or until you cancel the AutoInstall process. The first interface to successfully obtain an IP address from the DHCP server registers with the AutoInstall task. The registration of this interface causes AutoInstall to begin the process of obtaining TFTP server information and downloading the configuration file.
Following the acquisition of the DHCP IP address for an interface, AutoInstall begins a short sequence of events to determine the host name of the controller and the IP address of the TFTP server. Each phase of this sequence gives preference to explicitly configured information over default or implied information and to explicit host names over explicit IP addresses.
– If the DHCP Host Name option was received, this information (truncated at the first period [.]) is used as the host name for the controller.
– A reverse DNS lookup is performed on the controller IP address. If DNS returns a hostname, this name (truncated at the first period [.]) is used as the hostname for the controller.
– If AutoInstall received the DHCP TFTP Server Name option, AutoInstall performs a DNS lookup on this server name. If the DNS lookup is successful, the returned IP address is used as the IP address of the TFTP server.
– If the DHCP Server Host Name (sname) text box is valid, AutoInstall performs a DNS lookup on this name. If the DNS lookup is successful, the IP address that is returned is used as the IP address of the TFTP server.
– If AutoInstall received the DHCP TFTP Server Address option, this address is used as the IP address of the TFTP server.
– AutoInstall performs a DNS lookup on the default TFTP server name (cisco-wlc-tftp). If the DNS lookup is successful, the IP address that is received is used as the IP address of the TFTP server.
– If the DHCP server IP address (siaddr) text box is nonzero, this address is used as the IP address of the TFTP server.
– The limited broadcast address (255.255.255.255) is used as the IP address of the TFTP server.
After the hostname and TFTP server have been determined, AutoInstall attempts to download a configuration file. AutoInstall performs three full download iterations on each interface that obtains a DHCP IP address. For example, if a Cisco 4400 Series Controller obtains DHCP IP addresses on both eth0 and dtl0, each interface tries to download a configuration. If the interface cannot download a configuration file successfully after three attempts, the interface does not attempt further.
The first configuration file that is downloaded and installed successfully triggers a reboot of the controller. After the reboot, the controller runs the newly downloaded configuration.
AutoInstall searches for configuration files in the order in which the names are listed:
AutoInstall runs through this list until it finds a configuration file. It stops running if it does not find a configuration file after it cycles through this list three times on each registered interface.
Note The downloaded configuration file can be a complete configuration, or it can be a minimal configuration that provides enough information for the controller to be managed by WCS. Full configuration can then be deployed directly from WCS.
Note The autoinstall does not expect the switch connected to the controller to be configured for either channels. Autoinstall works with service port in lag-configuration.
Note For information about creating and uploading a configuration file that AutoInstall can obtain from a TFTP server, see Chapter11, “Managing Controller Software and Configurations”
Note WCS release 5.0 and later releases provide AutoInstall capabilities for controllers. A WCS administrator can create a filter that includes the host name, the MAC address, or the serial number of the controller and associate a group of templates (a configuration group) to this filter rule. WCS pushes the initial configuration to the controller when the controller boots up initially. After the controller is discovered, WCS pushes the templates that are defined in the configuration group. For more information about the AutoInstall feature and WCS, see Chapter 15 of the Cisco Wireless Control System Configuration Guide, Release 7.0.172.0.
The following is an example of an AutoInstall process from start to finish:
This section contains the following topics:
You can configure the controller system date and time at the time of configuring the controller using the configuration wizard. If you did not configure the system date and time through the configuration wizard or if you want to change your configuration, you can follow the instructions in this section to configure the controller to obtain the date and time from a Network Time Protocol (NTP) server or to configure the date and time manually. Greenwich Mean Time (GMT) is used as the standard for setting the time zone on the controller.
You can also configure an authentication mechanism between various NTP servers.
Each NTP server IP address is added to the controller database. Each controller searches for an NTP server and obtains the current time upon reboot and at each user-defined polling interval (daily to weekly).
Use these commands to configure an NTP server to obtain the date and time:
Step 1 Choose Controller > NTP > Servers to open the NTP Servers page.
Step 2 Click New to add an NTP server.
The NTP Servers > New page appears
Step 3 Select a server priority from the Server Index (Priority) from the drop-down list.
Step 4 Enter the NTP server IP Address in the Server IP Address text box.
Step 5 Enable NTP server authentication by selecting the NTP Server Authentication check box.
Step 7 Choose Controller > NTP > Keys .
Step 8 Click New to create a key.
Step 9 Enter the key index in the Key Index text box.
Step 10 Select the key format from the Key Format drop-down list.
Step 11 Enter the Key in the Key text box.
Step 1 Choose Commands > Set Time to open the Set Time page.
The current date and time appear at the top of the page.
Step 2 In the Timezone area, choose your local time zone from the Location drop-down list.
Note When you choose a time zone that uses Daylight Saving Time (DST), the controller automatically sets its system clock to reflect the time change when DST occurs. In the United States, DST starts on the second Sunday in March and ends on the first Sunday in November.
Note You cannot set the time zone delta on the controller GUI. However, if you do so on the controller CLI, the change is reflected in the Delta Hours and Mins text boxes on the controller GUI.
Step 3 Click Set Timezone to apply your changes.
Step 4 In the Date area, choose the current local month and day from the Month and Day drop-down lists, and enter the year in the Year text box.
Step 5 In the Time area, choose the current local hour from the Hour drop-down list, and enter the minutes and seconds in the Minutes and Seconds text boxes.
Note If you change the time zone location after setting the date and time, the values in the Time area are updated to reflect the time in the new time zone location. For example, if the controller is currently configured for noon Eastern time and you change the time zone to Pacific time, the time automatically changes to 9:00 a.m.
Step 6 Click Set Date and Time to apply your changes.
Step 7 Click Save Configuration to save your changes.
Step 1 To configure the current local date and time in GMT on the controller, enter this command:
config time manual mm/dd/yy hh:mm:ss
Note When setting the time, the current local time is entered in terms of GMT and as a value between 00:00 and 24:00. For example, if it is 8:00 a.m. Pacific time in the United States, you would enter 16:00 because the Pacific time zone is 8 hours behind GMT.
Step 2 Perform one of the following to set the time zone for the controller:
config time timezone location location_index
where location_index is a number representing one of the following time zone locations:
1. (GMT-12:00) International Date Line West
5. (GMT-8:00) Pacific Time (US and Canada)
6. (GMT-7:00) Mountain Time (US and Canada)
7. (GMT-6:00) Central Time (US and Canada)
8. (GMT-5:00) Eastern Time (US and Canada)
9. (GMT-4:00) Atlantic Time (Canada)
10. (GMT-3:00) Buenos Aires (Argentina)
13. (GMT) London, Lisbon, Dublin, Edinburgh (default value)
14. (GMT +1:00) Amsterdam, Berlin, Rome, Vienna
17. (GMT +4:00) Muscat, Abu Dhabi
19. (GMT +5:00) Karachi, Islamabad, Tashkent
20. (GMT +5:30) Colombo, Kolkata, Mumbai, New Delhi
22. (GMT +6:00) Almaty, Novosibirsk
24. (GMT +7:00) Saigon, Hanoi, Bangkok, Jakarta
25. (GMT +8:00) Hong Kong, Beijing, Chongqing
26. (GMT +9:00) Tokyo, Osaka, Sapporo
28. (GMT+10:00) Sydney, Melbourne, Canberra
29. (GMT+11:00) Magadan, Solomon Is., New Caledonia
30. (GMT+12:00) Kamchatka, Marshall Is., Fiji
31. (GMT+12:00) Auckland (New Zealand)
Note If you enter this command, the controller automatically sets its system clock to reflect DST when it occurs. In the United States, DST starts on the second Sunday in March and ends on the first Sunday in November.
config time timezone delta_hours delta_mins
where delta_hours is the local hour difference from GMT, and delta_mins is the local minute difference from GMT.
When manually setting the time zone, enter the time difference of the local current time zone with respect to GMT (+/–). For example, Pacific time in the United States is 8 hours behind GMT. Therefore, it is entered as –8.
Note You can manually set the time zone and prevent DST from being set only on the controller CLI.
Step 3 To save your changes, enter this command:
Step 4 To verify that the controller shows the current local time with respect to the local time zone, enter this command:
Information similar to the following appears:
Note If you configured the time zone location, the Timezone Delta value is set to “0:0.” If you manually configured the time zone using the time zone delta, the Timezone Location is blank.
This section contains the following topics:
Telnet is a network protocol used to provide access to the controller’s CLI. Secure Shell (SSH) is a more secure version of Telnet that uses data encryption and a secure channel for data transfer. You can use the controller GUI or CLI to configure Telnet and SSH sessions.
Step 1 Choose Management > Telnet-SSH to open the Telnet-SSH Configuration page.
Figure 3-16 Telnet-SSH Configuration Page
Step 2 In the Telnet Login Timeout text box, enter the number of minutes that a Telnet session is allowed to remain inactive before being terminated. The valid range is 0 to 160 minutes (inclusive), and the default value is 5 minutes. A value of 0 indicates no timeout.
Step 3 From the Maximum Number of Sessions drop-down list, choose the number of simultaneous Telnet or SSH sessions allowed. The valid range is 0 to 5 sessions (inclusive), and the default value is 5 sessions. A value of zero indicates that Telnet/SSH sessions are disallowed.
Step 4 From the Allow New Telnet Sessions drop-down list, choose Yes or No to allow or disallow new Telnet sessions on the controller. The default value is No.
Step 5 From the Allow New SSH Sessions drop-down list, choose Yes or No to allow or disallow new SSH sessions on the controller. The default value is Yes.
Step 6 Click Apply to commit your changes.
Step 7 Click Save Configuration to save your changes.
Step 8 To see a summary of the Telnet configuration settings, choose Management > Summary . The Summary page appears.
This page shows whether additional Telnet and SSH sessions are permitted.
Step 1 To allow or disallow new Telnet sessions on the controller, enter this command:
config network telnet { enable | disable }
The default value is disabled.
Step 2 To allow or disallow new SSH sessions on the controller, enter this command:
config network ssh { enable | disable }
Step 3 To specify the number of minutes that a Telnet session is allowed to remain inactive before being terminated, enter this command:
config sessions timeout timeout
where timeout is a value between 0 and 160 minutes (inclusive). The default value is 5 minutes. A value of 0 indicates no timeout.
Step 4 To specify the number of simultaneous Telnet or SSH sessions allowed, enter this command:
config sessions maxsessions session_num
where session_num is a value between 0 and 5 (inclusive). The default value is 5 sessions. A value of zero indicates that Telnet/SSH sessions are disallowed.
Step 5 To save your changes, enter this command:
Step 6 To see the Telnet and SSH configuration settings, enter this command:
Information similar to the following appears:
Step 7 To see the Telnet session configuration settings, enter this command:
Information similar to the following appears:
Step 8 To see all active Telnet sessions, enter this command:
Information similar to the following appears:
Step 9 If you ever want to close all active Telnet sessions or a specific Telnet session, enter this command:
config loginsession close { all | session_id }
See the “Troubleshooting” section for instructions on using Telnet or SSH to troubleshoot lightweight access points.
This section contains the following topics:
You can monitor and configure controllers using a wireless client. This feature is supported for all management tasks except uploads from and downloads to the controller.
Before you can open the GUI or the CLI from a wireless client device, you must configure the controller to allow the connection.
Step 1 Log on to the controller GUI.
Step 2 Choose Management > Mgmt Via Wireless page.
Step 3 Enable the Enable Controller Management to be accessible from Wireless Clients checkbox.
Step 1 Log on to the controller CLI.
Step 2 Enter the config network mgmt-via-wireless enable command.
Step 3 Use a wireless client to associate to a lightweight access point connected to the controller.
Step 4 On the wireless client, open a Telnet session to the controller, or browse to the controller GUI.